Laser printable polyarylene sulfide compositions process for encapsulating articles with optional laser printing

ABSTRACT

The six compositions, nickel-antimony-titanium, lead chromate-lead molybdate, quinacridone, monoazo-nickel complex, cobalt-zinc-silica, and lead chromate, provide a polyarylene sulfide composition containing one or more of these with high contrast laser printability.

This application is a division of application Ser. No. 590,824, filed Mar. 19, 1984 and patent No. 4,560,580, which is a division of application Ser. No. 429,738, filed Sept. 30, 1982, now U.S. Pat. No. 4,443,571.

BACKGROUND OF THE INVENTION

Polyphenylene sulfide is a plastic which, due to its stability at high temperatures and its resistance against various chemicals, has found ever broadening areas of applications. Among these applications are the use of polyarylene sulfide as an encapsulating material for electrical circuits or other electrical elements, particularly in view of the outstanding electrical properties of polyarylene sulfide.

For these and other applications of polyarylene sulfide, printing of the polymer surface sometimes constitutes a problem. Specifically, it is desirable to print characterizing features or codes on such surfaces which cannot be readily removed or erased, and to obtain these imprints in good contrast.

Laser printing is a technique that had been developed for permanent printing on certain surfaces.

THE INVENTION

It is thus one object of this invention to provide laser printable surfaces from novel polyarylene sulfide compositions.

Another object of this invention is to provide a composition that furnishes a surface which can be printed by exposure to laser beams resulting in relatively high contrast prints on the surface.

A further object of this invention is to provide a process to print on a polyarylene sulfide surface.

Yet another object of this invention is to provide a process to produce an electric element encapsulated in polyarylene sulfide.

These and other objects, advantages, details, features and embodiments of this invention will become apparent to those skilled in the art from the following detailed description of the invention and the appended claims.

In accordance with this invention it has now been discovered that the following compounds when added in varying concentrations render the surfaces of molded polyarylene sulfide compositions laser printable with good contrast:

1. Monoazo-nickel complex (yellow)

2. Lead chromate-lead molybdate (red)--(PbCrO₄)/PbMoO₄

3. Quinacridone (red)

4. Nickel-antimony-titanium (yellow)--NiSbTi

5. Cobalt-zinc-silica (blue)--CoSiZn

6. Lead chromate (yellow)--PbCrO₄

These compounds are hereinafter also collectively referred to as "print compounds".

In this invention the surfaces to be laser printed on are preferably polyarylene sulfide molded articles. As used herein "molded" includes injection molding, extrusion, pultruded, vacuum formed, cast, blowmolded, rotational molded, etc.

More specifically and in accordance with a first embodiment of this invention, a composition is provided which comprises the following ingredients the broad ranges represent the ranges within which the composition should be confined in order to obtain good results, the preferred ranges are preferred because they define a composition possessing the physical, chemical and electrical properties best suited for its intended encapsulation purposes:

    ______________________________________                                                       Broad Range Preferred Range                                      Ingredient    Parts by Weight                                                                            Parts by Weight                                      ______________________________________                                         Polyarylene sulfide                                                                          100         100                                                  Print compounds                                                                               .9 to 12   3 to 6                                               Filler        140 to 220  160 to 200                                           Coupling agent                                                                               .7 to 6     1.5 to 3                                             Processing aid                                                                               .3 to 3      .7 to 1.4                                           Corrosion inhibiior                                                                          0 to 6      1.4 to 4                                             ______________________________________                                    

The corrosion inhibitor is optional in the composition but may be added to provide mold and encapsulated component protection.

POLYARYLENE SULFIDE

Without being limited thereto, uncured or partially cured poly(arylene sulfide) whether homopolymer, copolymer, terpolymer, and the like, or a blend of such polymers, can be used in the practice of the invention. The uncured or partially cured polymer is a polymer the molecular weight of which can be increased by either lengthening of a molecular chain or by crosslinking or by combination of both by supplying thereto sufficient energy, such as heat. Suitable poly(arylene sulfide) polymers include, but are not limited to, those described in U.S. Pat. No. 3,354,129, incorporated by reference herein. Examples of poly(arylene sulfide) polymers suitable for purposes of the invention include poly(2,4-tolylene sulfide), poly(4,4'-biphenylene sulfide) and poly(phenylene sulfide). Because of its availability and desirable properties (such as high chemical resistance, nonflammability, and high strength and hardness) poly(phenylene sulfide) is the presently preferred poly(arylene sulfide). Various poly(arylene sulfides) are commercially available under the trademark Ryton® from Phillips Petroleum Company, Bartlesville, Okla.

THE PRINT COMPOUNDS

The six print compounds useful in accordance with this invention to provide laser printable polyarylene sulfide compositions are commercially available products. The following tabulation gives a supplier and trademark for each of the print compounds.

    __________________________________________________________________________     Print Compound   Supplier    Trademark                                                                               Reference                                __________________________________________________________________________     1. Nickel-monoazo complex                                                                       Harmon Color Co.                                                                           Fanchon Fast                                                                            Color #12775, Pigment Green 10                                                 (para                                                                 Yellow Y-5694                                                                           chloroaniline → 2,4-quinoline                                            diol →                                                                 nickel complex); U.S. Pat. No.                                                 2,396,327                                2. Lead chromate-lead molybdate                                                                 Dupont      Krolor KR980D                                                                           Mixture of Violet 19 and Red 104                                      (Red)    PbCrO.sub.4 /PbMoO.sub.4 ; Color                                               index number                                                                   46500 and 77605;                                                               Violet 19: U.S. Pat. No.                                                       2,844,484;                                                                     U.S. Pat. No. 2,844,485; U.S. Pat.                                             No.                                                                            2,844,581 Red 104:                                                             U.S. Pat. No. 1,926,447                  3. Quinacridone  Sun Chemical Co.                                                                           228-0022 Violet 19; Color Index 46500                                          (Red)    Violet 19: U.S. Pat. No.                                                       1,844,484;                                                                     U.S. Pat. No. 2,844,485; U.S. Pat.                                             No. 2,844,581                            4. Nickel-antimony-titanium                                                                     Shepherd Chemical Co.                                                                      Shepherd #14                                                                            Pigment Yellow #150; made from                                        (Yellow) oxides of the metals plus heating        5. Cobalt-zinc-silica                                                                           Ferro Chemical Co.                                                                         V9223 (Blue)                                                                            Major components are metal oxides                                              calcined at 1200 to 2300°                                               F.                                       6. Lead chromate Dupont      Krolor KY788D                                                                           PbCrO.sub.4                                                           (Yellow)                                          __________________________________________________________________________

FILLER

Various fillers can be used for the composition of this invention. Typical fillers include fiberglass, talc, titanium dioxide, silica and calcium sulfate. Most preferably the composition of this invention contains one or more of the fillers fiberglass, talc and titanium dioxide.

COUPLING AGENT

In accordance with the preferred embodiment of the invention the composition comprises a poly(arylene sulfide) (such as, for example, a poly(phenylene sulfide) and at least one mercaptosilane, such as, for example, the preferred 3-mercaptopropyltrimethoxysilane. This silane is preferred because of its extraordinary utility as a coupling agent.

OTHER ADDITIVES

The composition of this invention optionally contains other additives such as processing aids (e.g. mold release agents), corrosion inhibitors, and stabilizers. It is presently preferred to incorporate a mold release agent into the composition of this invention, particularly when the composition is intended for molding, e.g. in an encapsulation operation. Polyethylene and zinc stearate are examples of useful mold release agents. Corrosion inhibitors are also advantageously contained in the composition, particularly when this composition is used in molding operations such as encapsulation. An example of a corrosion inhibitor is lithium carbonate.

PRODUCTION

The composition of this invention is preferably in the form of a powder or in the form of pellets. The ingredients are most preferably dry blended and then extruded into pellets or otherwise molten and converted into powder. The melting or extrusion is carried out at temperatures above the melting point of the polyarylene sulfide and usually at a temperature in the range of about 550° to 650° F.

LASER PRINTING

Another embodiment of this invention resides in a printing process. In this process a surface of a molded composition as defined above is exposed to a pattern of laser radiation such as to change the irradiated surface as compared to the non-irradiated surface and to generate a preferably visible mark corresponding to the pattern of irradiation on the surface. A laser printer, Laser Mark 920, was used as described in the example and is commercially available from Lumonics, Inc., Kanata, Canada. Generally, the pattern is generated by passing the laser radiation through a stencil. The exposure time is usually short, in the order of microseconds and the depth of the material affected is small, usually in the order of a mil or less using a power range of the laser on the order of 1-10 joules, preferably 3 joules over an area of about 0.03125 sq. inches. The specific print compounds used in the compositions of this invention which cause laser printability with good contrast may involve different mechanisms such as mechanical and/or chemical changes in the composition near the surface. Applicants do not wish to be bound, however, by any such theory. It should be understood that good contrast is a matter of interpretation and may comprise a light pigmented resin composition which changes to dark areas under laser exposure or vice versa. Also under varying energy levels of the laser the resin color may initially be changed to a lighter color such as at 3 joules energy then to a darker color such as at 10 joules energy. The initial resin pigmentation or color (light or dark) is also based on pigments concentrations and resin formulations which can vary over a wide range.

ENCAPSULATION

The most preferred use of the compositions of this invention is for encapsulation of electrical elements, such as integrated circuits, capacitors, resistor networks, and the like. This encapsulation is achieved by flowing the composition of this invention as a melt in a mold over the electric element to be encapsulated while protecting the connecting leads from being coated. The molten composition is allowed to solidify in the mold and then the encapsulated element is removed from the mold. By this process, which uses the novel composition of this invention, an encapsulated electrical element is produced which can readily and readably be printed upon with laser radiation. It is within the scope of this invention to carry out the laser printing following the encapsulation and most preferably directly in the mold prior to removal of the encapsulated element.

The encapsulation steps are generally carried out by injecting the composition of this invention into the mold containing the electrical elements. The temperature for this step will be preferably in the range of 575° to 675° F., and also based on the electrical component being encapsulated but it will be sufficiently above the melting point of the polyarylene sulfide to allow adequate flow of the composition into the mold and around the electrical element or elements.

Although the invention is not limited thereto the viscosity of the composition used for encapsulation of active components should not exceed about 800 poise. Encapsulation of active electronic components with compositions having viscosities in excess of about 800 poise can cause damage to the components. It is contemplated that the viscosity of the composition will generally range from about 150 to about 500 poise for active components other than very delicate components such as, for example, integrated circuits with wire leads. With respect to very delicate components such as, for example integrated circuits with wire leads the viscosity of the encapsulation composition should be below about 150 poise. Encapsulation of integrated circuits with compositions any higher in viscosity can cause wire wash (i.e., breaking of the wires of the integrated circuit). It is contemplated that the viscosity of the composition for the encapsulation of such integrated circuits and the like will generally range from about 75 to about 150 poise.

Although viscosity of the composition depends on a number of factors, to obtain composition viscosities below about 800 poise the viscosity of the poly(arylene sulfide) contemplated in encapsulation of active components should generally not exceed about 130 poise. It is contemplated that the viscosity of the poly(arylene sulfide) will, in most applications, range up to about 70 poise. To obtain composition viscosities within the desired range for delicate active components such as, for example, integrated circuits with wire leads the viscosity of the poly(arylene sulfide) should generally be less than about 25 poise.

Although the invention is not limited thereto the viscosity of the composition used for encapsulation of passive components should not exceed about 1200 poise. Encapsulation of passive electronic components with compositions having viscosities in excess of about 1200 poise can cause damage to the components. It is contemplated that the viscosity of the composition will generally range from about 500 to about 800 poise.

To obtain composition viscosities within the desired ranges the viscosity of the poly(arylene sulfide) contemplated in encapsulation of passive components should not exceed about 300 poise. It is contemplated that the viscosity of the poly(arylene sulfide) will generally range from about 190 to about 300 poise.

The viscosities mentioned above are determined on a capillary rheometer at 650° F. and at a shear rate of 1000 sec⁻¹.

The following examples are intended to further illustrate the invention without unduly limiting its scope.

EXAMPLE I

The ingredients of the following recipe were dry blended and thereafter the composition was extruded in a Buss-Conduit Kneader feeding a crosshead extruder and pellets of the composition were recovered.

    ______________________________________                                         Recipe                                                                                       Weight Percent                                                                           Parts by Weight                                        ______________________________________                                         Polyphenylene sulfide.sup.1                                                                    35          100                                                Fiberglass.sup.2                                                                               35          100                                                Talc.sup.3      11.75       33.6                                               Titanium dioxide.sup.4                                                                         15          42.9                                               Nickel mono-azo complex.sup.5                                                                  2           5.7                                                Silane.sup.6    1           2.9                                                Processing aid.sup.7                                                                           0.25        0.7                                                ______________________________________                                          .sup.1 Commercially available under the trademark Ryton ® from             Phillips Petroleum Company, Bartlesville, Oklahoma.                            .sup.2 Commercially available under Grade 193 from OwensCorning, Amarillo      Texas.                                                                         .sup.3 Commercially available under type 2620 talc from Ribelin, Dallas,       Texas.                                                                         .sup.4 Commercially available under the trademark Unitane 0110 from            Cyanamid.                                                                      .sup.5 Commercially available from Harmon Chemical Co., Hawthorne, N.J.        under ihe trademark Harmon Y5694.                                              .sup.6 Commercially available under the trademark A189 from Union Carbide      or trademark 6032 Dow Chemical Co.                                             .sup.7 Polyethylene commercially available under the trademark Marlex          EMNTR885 from Phillips Petroleum Company, Bartlesville, Oklahoma.        

The color of the composition was golden yellow. The pellets were used to encapsulate electric circuits with satisfactory results. Laser printing of the encapsulated circuit resulted in markings having a purplish color with good contrast.

EXAMPLES 2-6

The ingredients of the recipe in Example I were blended in the concentrations listed using, however, instead of the nickel monoazo complex those compositions listed in the following table. The changes in color due to laser energy exposure are listed.

    ______________________________________                                         Ex-               Compo-    Encap-  Resultant                                  am-               sition    sulation                                                                               Laser                                      ple  Pigment      Color     Results Print Color                                ______________________________________                                         2    Lead chromate-                                                                              light brown                                                                              satisfactory                                                                           light yellow                                    lead molybdate                                                            3    Quinacridone dark purple                                                                              satisfactory                                                                           light green                                4    Nickel-antimony-                                                                            light tan satisfactory                                                                           light yellow                                    titanium                                                                  5    Cobalt-zinc- gray      satisfactory                                                                           white                                           silica                                                                    6    Lead chromate                                                                               gray-tan  satisfactory                                                                           light yellow                               ______________________________________                                    

All the above listed pigments showed good contrast, while a variety of other pigments were ineffectual in exhibiting good contrast under laser energy exposure. For example: chromium oxide (green) blended in accordance with example 1 recipe in place of ingredient 5 and at a 1 weight percent concentration when exposed to 3 joules laser energy resulted in poor contrast. The chromium oxide is commercially available from Pfizer Co. under the pigment number G4099.

Reasonable variations and modifications which will become apparent to those skilled in the art can be made in this invention without departing from the spirit and scope thereof. 

What is claimed is:
 1. A process of printing a mark on a molded surface of a composition of(a) polyarylene sulfide and (b) at least one print compound selected from the group consisting ofmonoazo-nickel complex lead chromate-lead molybdate quinacridone nickel-antimony-titanium cobalt-zinc-silica lead chromate said process comprising exposing a pattern of laser light to said molded surface for a time sufficient to produce a visible change in the molded surface of said composition in the areas of said molded surface exposed to the pattern.
 2. Process in accordance with claim 1 wherein said pattern is generated by passing a laser beam through a stencil corresponding to said pattern and passing the light passing through the stencil onto said molded surface. 